EP3562660B1 - Method for loading a green tyre for bicycles in a vulcanisation mould and apparatus for moulding and vulcanising - Google Patents

Method for loading a green tyre for bicycles in a vulcanisation mould and apparatus for moulding and vulcanising Download PDF

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Publication number
EP3562660B1
EP3562660B1 EP17835704.2A EP17835704A EP3562660B1 EP 3562660 B1 EP3562660 B1 EP 3562660B1 EP 17835704 A EP17835704 A EP 17835704A EP 3562660 B1 EP3562660 B1 EP 3562660B1
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EP
European Patent Office
Prior art keywords
green tyre
gripping
central body
tyre
vulcanisation
Prior art date
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EP17835704.2A
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German (de)
English (en)
French (fr)
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EP3562660A1 (en
Inventor
Davide Lupo CONTI
Bruno LODI
Gian Luigi Bosio
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Pirelli and C SpA
Pirelli Tyre SpA
Original Assignee
Pirelli SpA
Pirelli Tyre SpA
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Publication of EP3562660A1 publication Critical patent/EP3562660A1/en
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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29DPRODUCING PARTICULAR ARTICLES FROM PLASTICS OR FROM SUBSTANCES IN A PLASTIC STATE
    • B29D30/00Producing pneumatic or solid tyres or parts thereof
    • B29D30/06Pneumatic tyres or parts thereof (e.g. produced by casting, moulding, compression moulding, injection moulding, centrifugal casting)
    • B29D30/0601Vulcanising tyres; Vulcanising presses for tyres
    • B29D30/0603Loading or unloading the presses
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29DPRODUCING PARTICULAR ARTICLES FROM PLASTICS OR FROM SUBSTANCES IN A PLASTIC STATE
    • B29D30/00Producing pneumatic or solid tyres or parts thereof
    • B29D30/0016Handling tyres or parts thereof, e.g. supplying, storing, conveying
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29DPRODUCING PARTICULAR ARTICLES FROM PLASTICS OR FROM SUBSTANCES IN A PLASTIC STATE
    • B29D30/00Producing pneumatic or solid tyres or parts thereof
    • B29D30/0016Handling tyres or parts thereof, e.g. supplying, storing, conveying
    • B29D2030/0022Handling green tyres, e.g. transferring or storing between tyre manufacturing steps
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29DPRODUCING PARTICULAR ARTICLES FROM PLASTICS OR FROM SUBSTANCES IN A PLASTIC STATE
    • B29D30/00Producing pneumatic or solid tyres or parts thereof
    • B29D30/06Pneumatic tyres or parts thereof (e.g. produced by casting, moulding, compression moulding, injection moulding, centrifugal casting)
    • B29D30/0601Vulcanising tyres; Vulcanising presses for tyres
    • B29D30/0606Vulcanising moulds not integral with vulcanising presses
    • B29D2030/0607Constructional features of the moulds
    • B29D2030/062Means for sealing the tyre against the mould in the bead areas
    • B29D2030/0621Means for sealing the tyre against the mould in the bead areas to seal the bead portions against the mould i.e. by using pressing devices
    • B29D2030/0622Means for sealing the tyre against the mould in the bead areas to seal the bead portions against the mould i.e. by using pressing devices the pressing devices being collapsable, e.g. annular elements consisting of a plurality of sectors
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29DPRODUCING PARTICULAR ARTICLES FROM PLASTICS OR FROM SUBSTANCES IN A PLASTIC STATE
    • B29D30/00Producing pneumatic or solid tyres or parts thereof
    • B29D30/06Pneumatic tyres or parts thereof (e.g. produced by casting, moulding, compression moulding, injection moulding, centrifugal casting)
    • B29D30/0601Vulcanising tyres; Vulcanising presses for tyres
    • B29D30/0645Devices for inserting vulcanising cores, i.e. bladders, into the tyres; Closing the press in combination herewith
    • B29D2030/0647Supporting or transferring tyres using an assembly of a bladder and side rings
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29DPRODUCING PARTICULAR ARTICLES FROM PLASTICS OR FROM SUBSTANCES IN A PLASTIC STATE
    • B29D30/00Producing pneumatic or solid tyres or parts thereof
    • B29D30/06Pneumatic tyres or parts thereof (e.g. produced by casting, moulding, compression moulding, injection moulding, centrifugal casting)
    • B29D30/0601Vulcanising tyres; Vulcanising presses for tyres
    • B29D30/0645Devices for inserting vulcanising cores, i.e. bladders, into the tyres; Closing the press in combination herewith
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29DPRODUCING PARTICULAR ARTICLES FROM PLASTICS OR FROM SUBSTANCES IN A PLASTIC STATE
    • B29D30/00Producing pneumatic or solid tyres or parts thereof
    • B29D30/06Pneumatic tyres or parts thereof (e.g. produced by casting, moulding, compression moulding, injection moulding, centrifugal casting)
    • B29D30/08Building tyres
    • B29D30/10Building tyres on round cores, i.e. the shape of the core is approximately identical with the shape of the completed tyre
    • B29D30/18Fitting the bead-rings or bead-cores; Folding the textile layers around the rings or cores

Definitions

  • the present invention relates to a method for loading a green tyre for bicycles in a vulcanisation mould and an apparatus for moulding and vulcanising said green tyre for bicycles.
  • the building of a tyre for bicycles usually provides that one or more carcass plies are applied according to a cylindrical configuration around an outer surface of a building drum.
  • Each bead core of a pair of bead cores is fitted or applied around one of the axially opposite end flaps of the carcass ply.
  • the end flaps are then turned up around the respective bead cores.
  • a tread band is then applied around the carcass ply lying against the building drum, in an axially centred position with respect to the bead cores.
  • the mutual axial distance between the bead cores remains unchanged during the entire building process, including the application of the tread band.
  • This process aspect represents a unique feature that distinguishes bicycle tyres from tyres for motor vehicles.
  • a mutual approach step of the bead cores is normally provided to shape the carcass structure according to a toroidal configuration in the coupling step with the belt structure.
  • the built green tyre for bicycles is removed from the drum to be transferred in a mould or a vulcanisation press, where the tyre itself is subjected to a moulding and vulcanisation treatment aimed at determining the structural stabilisation thereof via cross-linking of the elastomeric material present therein, as well as optionally imprinting a desired tread pattern on the tread band.
  • elastomeric material is used to designate a composition comprising at least one elastomeric polymer and at least one reinforcement filler.
  • a composition further comprises additives such as cross-linking agents and/or plasticisers. Due to the presence of the cross-linking agents, such a material can be cross-linked by heating so as to form the final manufactured article.
  • radial and axial and the expressions “radially inner/outer” and “axially inner/outer” are used with reference to the radial direction of the tyre (i.e. to a direction perpendicular to the axis of rotation of the tyre) and to the axial direction of the tyre (i.e. to a direction parallel to the axis of rotation of the tyre).
  • the terms “circumferential” and “circumferentially” are instead used with reference to the annular development of the tyre.
  • a radial plane of the tyre contains the axis of rotation thereof.
  • Geometric axis of rotation of a green tyre means the axis corresponding to the axis of rotation of the vulcanised tyre when mounted in operating conditions on a respective mounting rim.
  • axial centreline plane of the moulded and vulcanised or green tyre is used to designate a plane perpendicular to the geometric axis of rotation and equidistant from the axially outer portions of the tyre itself.
  • gripping axis of a gripping device is used to designate a reference axis around which a gripping sector is arranged, comprising at least one gripping area, activated on the green tyre.
  • tyre width is used to designate the maximum axial dimension of the moulded and vulcanised tyre.
  • US2014/0069573 discloses a tire mold loaded by a tire loader.
  • the curing bladder is inflated with low pressure fluid and then the loader is released.
  • US3378882 discloses a loader for tire curing press. The bladder of the curing press engages the interior of the green tire and hold it in position.
  • vulcanisation press for bicycle tyres, with single location and multiple location, respectively.
  • Single-location presses are provided with a single vulcanisation mould, normally made of two half-parts, housing a radially expandable vulcanisation bladder, fixed around a central support.
  • the green tyre coming from the building line is picked up by an operator to be fitted around the vulcanisation bladder.
  • the half-parts of the mould are closed and the bladder, previously mounted inside the vulcaniser, is inflated with pressurised steam or compressed air, or nitrogen or a mixture of the previous fluids, so as to press the tyre against the inner walls the mould and cause the vulcanisation thereof by heat.
  • the mould half-parts are moved away from each other and the operator picks up the vulcanised tyre to replace it with a new green tyre to be vulcanised.
  • This machine configuration where each mould has a relative bladder previously mounted on the vulcaniser, can generally have up to two, three moulds stacked on top of each other.
  • multiple-location vulcanisation presses including multiple vulcanisation moulds stacked vertically on top of each other, generally up to a maximum of 7 moulds where, however, the bladder is not fixed on the vulcaniser.
  • the use of multiple-location presses without fixed bladder or so-called central mechanism requires that an operator provides to introduce an expandable tubular chamber within each green tyre built to be treated. The operator then introduces each tyre coupled to the respective vulcanisation chamber between the half-parts of each vulcanisation mould, making sure that each chamber is connected to a steam feeding conduit, or compressed air, or nitrogen or a mixture of the previous fluids, by means of valve members provided for this purpose.
  • the half-parts of each mould are moved away from each other and the operator picks up the vulcanised tyre to replace it with a new green tyre to be vulcanised and remove the vulcanisation chamber from each vulcanised tyre.
  • bicycle tyres are often provided with bead cores in non-metallic material, for example in composite material based on natural or synthetic fibres (carbon, aramid, etc.) to allow the finished tyre to be folding.
  • bicycle tyres are often devoid of reinforcement belting layers interposed between the carcass ply or plies and the tread band.
  • the Applicant has noted that once removed from the building drum, a green bicycle tyre tends to deform under the effect of internal stresses and of its own weight, and this is done randomly and uncontrollably in circumferential direction, where the circular shape is lost due to the low resistance of the bead cores, and/or in the axial development direction due to the shrinkage of the materials or the weight of the components thereof.
  • the Applicant therefore deems it desirable to find a solution so that green tyres for bicycles can be handled by mechanised handling, maintaining a predetermined precise positioning, despite their tendency to take a substantially random deformed development.
  • the Applicant has finally found that it is possible to obtain a correct and precise loading of the green tyre into the vulcanisation mould holding said green tyre in position prior to the placement in the mould, with respect to a predetermined axial position relative to a central body of the vulcanisation mould, the retention in such a position on the central body being due to a thrust action exerted from the interior outwards by the central body itself.
  • the invention relates to a method for loading a green tyre for bicycles in a vulcanisation mould according to claim 1.
  • the invention relates to an apparatus for moulding and vulcanising a green tyre for bicycles according to claim 10.
  • the Applicant believes that holding in position the green tyre with respect to a predetermined axial position relative to a central body of the vulcanisation mould allows a correct and precise loading of the green tyre in the vulcanisation mould itself.
  • the tyre in such a position on the central body as a result of the thrust action exerted from the interior outwards by the central body itself, it is possible to accurately engage the tyre itself, overcoming the problems related to the springback effect of the materials.
  • the present invention in at least one of the above aspects thereof, can exhibit at least one of the following preferred features.
  • it is provided to detect the axial position of the axial centreline plane of the green tyre with respect to the gripping device.
  • picking said green tyre by means of said gripping device comprises positioning said axial centreline plane of the green tyre in a predetermined axial position with respect to the gripping device.
  • the Applicant believes that knowing the axial position of the axial centreline plane with respect to the gripping device, detecting it after picking the tyre or by accurately positioning the tyre during the gripping allows the accurate positioning in the vulcanisation mould.
  • picking said green tyre comprises activating at least one gripping area of a gripping sector of the gripping device against a radially outer surface of the green tyre so as to retain said green tyre from the exterior.
  • the Applicant believes that retaining the tyre from the exterior to load it into the vulcanisation mould prevents the problems associated with the tendency of the green tyre to take a substantially random deformed development and allows an automatic and precise loading, preventing interference with the vulcanisation mould.
  • said gripping sector comprises a plurality of said gripping areas distributed discretely around said gripping axis.
  • the Applicant believes that the use of a plurality of gripping areas discretely distributed around the gripping axis allows a uniform grip of the green tyre.
  • each gripping area is defined by a substantially circular area.
  • the gripping areas are circumferentially distributed around the gripping axis along a same circumference.
  • said gripping sector comprises a single gripping area distributed continuously around said gripping axis.
  • the Applicant believes that the use of a single gripping area allows a high precision in the relative positioning without introducing excessive structural and/or operating complications.
  • activating said gripping area against the radially outer surface of the green tyre comprises arranging said gripping area in contact with said radially outer surface of the green tyre.
  • said gripping area is activated against the radially outer surface of the green tyre exerting an attraction action acting on the radially outer surface of the green tyre moving away from the geometric axis of rotation.
  • said attraction action is exerted by means of a pneumatic suction action adapted to generate a predetermined degree of vacuum between the radially outer surface of the green tyre and said at least one gripping area.
  • the pneumatic suction action is activated when the radially outer surface and said at least one gripping area are in mutual contact.
  • said gripping device prior to handling said gripping device, it is provided to verify the attainment of a predetermined degree of vacuum between the radially outer surface of the green tyre and said at least one gripping area, said predetermined degree of vacuum being indicative of the actual gripping of the green tyre.
  • disengaging said gripping device from the green tyre comprises deactivating said at least one gripping area releasing said radially outer surface.
  • said gripping device comprises a plurality of gripping elements distributed around the gripping axis, each gripping element of said plurality of gripping elements defining a gripping area.
  • disengaging said gripping device from the green tyre comprises deactivating said pneumatic suction action releasing said radially outer surface.
  • it is provided to exert, by means of a profiling unit, a thrust action directed radially outwards on a radially inner surface of the green tyre for expanding said green tyre from the interior up to reaching an expanded configuration before picking said green tyre.
  • picking said green tyre comprises activating at least one gripping area of a gripping sector of the gripping device against a radially outer surface of the green tyre in the expanded configuration so as to retain said green tyre from the exterior and keep it in the expanded configuration.
  • said gripping sector is arranged circumferentially around said gripping axis and defines an annular gripping portion.
  • annular gripping band of the green tyre arranged around the geometric axis of rotation at a predetermined height along the geometric axis of rotation itself.
  • activating said gripping area against the radially outer surface of the green tyre comprises arranging said annular gripping portion in contact with said annular gripping band.
  • the green tyre is retained by the gripping device hanging only at the annular gripping band.
  • said gripping device holds the green tyre from the outside and keeps said annular gripping band in the expanded configuration.
  • said axial centreline plane symmetrically divides said annular gripping band with respect thereto.
  • said axial centreline plane symmetrically divides a tread band of the green tyre with respect thereto.
  • said axial centreline plane and the respective height along said reference axis of the central body are selected as a function of the tyre width.
  • said vulcanisation position is arranged at a smaller height than said gripping position.
  • said central body exerts said thrust action on the radially inner surface of the green tyre when said central body reaches said gripping position and said axial centreline plane is arranged at the predetermined height.
  • said gripping device is disengaged from the green tyre and said green tyre is kept in position hanging on the central body arranged in gripping position, retained from the interior by means of said thrust action exerted by said central body.
  • the green tyre is retained from the interior only by means of said thrust action exerted by said central body without bottom support.
  • exerting said thrust action by means of said central body comprises radially expanding at least one portion of the central body up to touching a radially inner surface of the green tyre.
  • said portion is an expandable vulcanisation chamber.
  • the axial reference is arranged at an axial centreline plane of the expandable vulcanisation chamber.
  • said green tyre is maintained with said geometric axis of rotation arranged transversely with respect to a horizontal geometric plane. Even more preferably, said green tyre is maintained with said geometric axis of rotation arranged vertically.
  • said green tyre is picked by said gripping device with said gripping axis and said geometric axis of rotation arranged transversely with respect to a horizontal geometric plane. Even more preferably, said green tyre is picked by said gripping device with said gripping axis and said geometric axis of rotation arranged vertically.
  • said gripping device is handled with said gripping axis arranged transversely with respect to a horizontal geometric plane. Even more preferably, said gripping device is handled with said gripping axis arranged vertically.
  • said green tyre is arranged and positioned with respect to the central body arranged with said reference axis arranged transversely with respect to a horizontal geometric plane. Even more preferably, said green tyre is arranged and positioned with respect to the central body arranged with said reference axis arranged vertically.
  • said gripping device is configured for retaining said green tyre at a radially outer surface against which said at least one gripping area is activated.
  • said gripping device comprises a plurality of gripping elements distributed around said gripping axis, each gripping element of said plurality of gripping elements defining a gripping area.
  • the gripping elements are radially movable with respect to the gripping axis of the gripping device between a rest configuration, in which they are radially away from the gripping axis in order to disengage said gripping device from the green tyre and a working configuration, in which they are radially approached to the gripping axis for picking said green tyre.
  • said gripping elements are circumferentially distributed so that said gripping areas define an annular gripping portion.
  • said gripping elements are configured for exerting a pneumatic suction action adapted to generate a predetermined degree of vacuum between the radially outer surface of the green tyre and the gripping areas.
  • each gripping element comprises a suction or spongy interface adapted to come into contact with the radially outer surface of the green tyre, said interface being connected to a suction device.
  • a detection device is provided for detecting the degree of vacuum applied by the gripping elements between the radially outer surface of the green tyre and said gripping area.
  • the detection device is configured for generating a detection signal indicative of the detected degree of vacuum.
  • a control unit is provided, programmed for receiving said detection signal and comparing it with a threshold value indicative of the actual grip of the green tyre.
  • control unit is programmed for activating said transfer member if said comparison confirms the actual gripping of the green tyre.
  • said centring group comprises a first centring portion associated with the gripping device and a second centring portion associated with the central body, said first and second centring portions defining a shape coupling configured for aligning said geometric axis of rotation of the green tyre held by the gripping device and said gripping axis with said reference axis of the central body.
  • said gripping device comprises a frame which supports said gripping sector, said frame being movable along the gripping axis with respect to the first centring portion.
  • At least one elastic element is interposed between the frame and the first centring portion.
  • the elastic element is configured and arranged so as to oppose the approach between the frame and the first centring portion and allow the elastic return to a predetermined relative position of the frame and of the first centring portion.
  • said gripping device is configured for picking said green tyre from a profiling unit configured for receiving a green tyre for bicycle, profiling it according to a circular extension around the geometric axis of rotation of the green tyre and according to a convex cross-sectional profile in a radially outer direction, and arrange it with said geometric axis of rotation in a predefined position with respect to the profiling unit itself.
  • a profiling unit configured for receiving a green tyre for bicycle, profiling it according to a circular extension around the geometric axis of rotation of the green tyre and according to a convex cross-sectional profile in a radially outer direction, and arrange it with said geometric axis of rotation in a predefined position with respect to the profiling unit itself.
  • said profiling unit is configured for receiving said green tyre for bicycles with said geometric axis of rotation arranged transversely with respect to a horizontal geometric plane. Even more preferably, said profiling unit is configured for receiving said green tyre for bicycles with said geometric axis of rotation arranged vertically.
  • said profiling unit is configured for exerting a thrust action directed radially outwards on a radially inner surface of the green tyre for expanding said green tyre from the interior up to reaching an expanded configuration.
  • said profiling unit comprises a centring mandrel having a central geometric axis and a radially expandable profiling member extending circumferentially around said central geometric axis.
  • said profiling member comprises an expandable membrane fixed around an outer circumferential surface of the centring mandrel.
  • said profiling member comprises a plurality of sectors radially movable with respect to said central geometric axis.
  • said central geometric axis is arranged transversely with respect to a horizontal geometric plane. Even more preferably, said central geometric axis is arranged vertically.
  • said gripping device is configured for retaining said green tyre hanging with said geometric axis of rotation and said gripping axis arranged transversely with respect to a horizontal geometric plane.
  • said gripping device is configured for retaining said green tyre hanging with said geometric axis of rotation and said gripping axis arranged vertically.
  • said gripping device and said central body are movable according to a relative axial translation movement for arranging the axial centreline plane at the predetermined height along said reference axis of the central body.
  • said central body comprises at least one portion configured for expanding up to touching a radially inner surface of the green tyre.
  • said apparatus is configured for maintaining said geometric axis of rotation of the green tyre arranged transversely with respect to a horizontal geometric plane.
  • said apparatus is configured for maintaining said geometric axis of rotation of the green tyre arranged vertically.
  • said annular gripping portion is defined by a plurality of gripping areas circumferentially distributed around the gripping axis along a same gripping circumference.
  • the annular gripping portion is brought to a radially outer position with respect to the annular gripping band and with said gripping circumference aligned with an axial centreline plane of the green tyre.
  • An apparatus for moulding and vulcanising a green tyre for bicycles according to the present invention is globally designated with reference numeral 1 ( figures 16-18 ).
  • the present invention is designed for processing tyres 2 for bicycles, of the type schematically exemplified in figure 12 , for example for use on road, track, mountain bikes, e-bikes, etc.
  • a radially inner surface 2a, substantially facing towards a geometric axis of rotation "X" of tyre 2, and a radially outer surface 2b substantially facing away from the geometric axis of rotation "X", can be identified in tyre 2.
  • Tyre 1 for a bicycle has a carcass structure 3 comprising at least one carcass ply 4 having mutually parallel cords embedded in an elastomeric matrix.
  • Axially opposite end flaps 4a of the carcass ply or plies 4 are engaged to respective bead cores 5, that is, annular anchoring structures integrated in the regions usually identified by the name of "beads" at which the mechanical engagement between tyre 2 in use conditions and a respective mounting rim takes place.
  • At least two layers of cords having a cross pattern, respectively, can be identified in the carcass structure 3.
  • the cords belonging to each layer have an inclined development according to a predetermined angle, approximately between about 35° and about 65° with respect to a circumferential development direction of tyre 2.
  • the presence of two carcass plies 4 may be provided, radially superimposed on top of each other, each with the respective cords extending along an inclined direction with respect to the circumferential development of tyre 2 and according to an inclined orientation with respect to the cords belonging to the other carcass ply 4.
  • a single carcass ply 4 may be provided, the end flaps 4a whereof, turned up around bead cores 5, extend at least up to an axial centreline plane "M" of tyre 2, so as to define each a further radially outer layer of cords having crossed orientation with respect to the cords present in the radially inner layer.
  • tyre 2 for bicycles are generally devoid of a belt structure, that is, of reinforcement belt layers radially interposed between the carcass structure 3 and the tread band 6.
  • these belt layers contribute to increasing the structural strength of tyre 2 and to stabilising the geometry thereof, especially in the crown region, i.e. in the radially outer regions closer to the tread band 6.
  • At least one circumferential protective layer 7 may be provided, interposed between the tread band 6 and the carcass structure 3.
  • said at least one circumferential protective layer 7, the task whereof is essentially to protect tyre 2 from puncture, may have a textile structure or be made in the form of continuous layered tape of synthetic material, and preferably has a thickness not larger than about 0.5 mm, preferably not smaller than about 0.2 mm.
  • the circumferential protective layer or layers optionally present in tyre 2 for a bicycle do not significantly influence the structural strength, geometric stability and/or dynamic behaviour of tyre 2 itself.
  • portions of carcass ply 4 directly exposed towards the external environment can be identified between the axially outer edges of the tread band 6 and the bead cores 5.
  • Tyre 2 for a bicycle is in fact typically not provided with sidewalls, i.e. layers of elastomeric material applied laterally outside the carcass structure 3, each extending between one of the beads and the respective axially outer edge of the tread band.
  • thickness "S" of the bead core 5 corresponds to a half of the difference between an outer circumferential diameter “De” and the seating diameter “Dc” of bead core 5 itself.
  • the building of tyre 2 for a bicycle in fact provides that, using suitable application devices (not shown) forming part of a building unit, the carcass ply or plies 4 are deposited according to a cylindrical configuration, such as by wrapping around an outer surface of a building drum 9.
  • bead core application devices By means of bead core application devices (not shown), a pair of bead cores 5, for example made of composite material based on natural or synthetic fibres and/or more seldom, metallic material, is applied at a fixed mutual axial distance "D", each around one of the axially opposite end flaps 4a of the carcass ply 4.
  • each bead core 5, previously made in the form of finished component is first fitted around the carcass ply or plies 4 in an axial position corresponding to a circumferential recess 10 formed on the building drum 9
  • a slight radial expansion of the building drum 9, for example by lever mechanisms forming part of said bead core application devices, causes the application of the bead cores 5 against the carcass ply or plies 4, each at the respective circumferential recess 10.
  • the bead core application devices may be configured to make each bead core 5 directly on the building drum 9, wrapping one or more continuous cords around the carcass ply or plies 4 according to a plurality of coils axially juxtaposed and/or radially superimposed on each other.
  • Turning up devices (not shown) operating at the building drum 9 then turn up the end flaps 4a of the carcass plies 4 around the respective bead cores 5.
  • the end flaps 4a may be at least partially superimposed on each other and optionally joined in mutual direct contact.
  • Tread band application devices aid the application of a tread band 6 around the carcass ply 4, in an axially centred position with respect to the bead cores 5.
  • the tread band 6 may be applied in radial superimposition with respect to the turned up end flaps 4a. Once the application has been completed, the turned up end flaps 4a may therefore be partly arranged in an axially inner position with respect to axially opposite edges of the tread band.
  • the application of the tread band 6 may be preceded by the application of said at least one circumferential protective layer 7.
  • the tread band 6 is preferably applied maintaining the mutual axial distance "D" of the bead cores 5 virtually unchanged. More in particular, the mutual axial distance "D" between the bead cores 5 preferably remains unchanged during the entire building process, including the application of the tread band 6.
  • the green tyre 2 is removed from the building drum 9 to be subjected to other process steps, for example to be transferred to a vulcanisation press or mould.
  • the building drum 9 is radially contracted so as to facilitate the axial removal of the built tyre 2.
  • tyre 2 for a bicycle tends to deform spontaneously or very easily, for example under the effect of its own weight, as soon as it is removed from the building drum 9.
  • tyre 2 upon removal from the building drum 9, tyre 2 loses its shape with circular development, taking a deformed development in a random and uncontrolled manner.
  • any residual elastic tensions resulting for example from the radial expansion imposed during the application of the bead cores 5 induce the carcass ply or plies 4 to resume their original diameter, especially at the axially central portion.
  • tyre 2 initially built according to a cylindrical shape tends to take a cross-sectional profile substantially convex towards a radially inner direction.
  • the present invention aims to allow a reliable loading of the built tyre 2 for a bicycle, for the transfer thereof to a vulcanisation press or mould 101.
  • reference numeral 11 indicates a profiling unit, comprising a centring mandrel 12 having a central geometric axis "Y", preferably oriented transversely to a horizontal plane "O", for example according to a vertical direction, i.e. perpendicular thereto.
  • the centring mandrel 12 comprises a support structure 13 supporting a central upright 14 to which a support plate 15 is fixed, preferably circular in shape, having a peripheral edge extending concentrically on the central geometric axis "Y".
  • a coupling shank 16 tubular in shape, having a truncated-cone upper end, is preferably fixed on an upper surface of the support plate 15, concentrically to the central geometric axis "Y".
  • the centring mandrel 12 is operatively coupled to a radially expandable profiling member 17, extending circumferentially around the central geometric axis "Y” and preferably arranged peripherally on the upper surface of the support plate 15.
  • the profiling member 17 comprises an expandable membrane 18 extending around the central geometric axis "Y".
  • the expandable membrane 18 is preferably fixed around a support collar 19 fixed to the support plate 15 concentrically to the central geometric axis "Y”.
  • the expandable membrane 18 is adapted to be inflated through the controlled introduction of air or other operating fluid under pressure through one or more passages formed, for example, through the support collar 19, to radially expand away from the central geometric axis "Y".
  • the profiling member 17 may optionally comprise, in addition to or in replacement of the expandable collar 18 and the support collar 19, a plurality of sectors radially movable with respect to said central geometric axis "Y".
  • the profiling unit 11 is adapted to operatively engage the built green tyre 2, which can be fitted around the profiling member 17, for example by manual intervention of an operator.
  • the profiling unit 11 is further preferably provided with axial positioning devices 20 of the green tyre 2 along the central geometric axis "Y" of the centring mandrel 12.
  • Such axial positioning devices 20 may for example comprise a circumferential support 21 having at least one circumferential supporting surface 21a concentric to the central geometric axis "Y" and protruding in a radially outer direction with respect to said profiling member 17, for supporting tyre 2 in supporting relation at an axially outer edge thereof, for example defined by one of the beads arranged inferiorly.
  • the circumferential support 21 and the centring mandrel 12 are mutually positionable along a direction parallel to the central geometric axis "Y", so as to facilitate the adaptation of the profiling unit 11 to the processing of tyres 2 having respectively different widths.
  • the circumferential supporting surface 21a of the circumferential support 21 is defined by a plurality of elastically movable sheets 22 peripherally borne by a support ring 23 so as to be circumferentially distributed around the central geometric axis "Y".
  • Each sheet 22 may for example comprise an attachment portion 22a fixed to the support ring 23 and extending away from the latter parallel to the central geometric axis "Y", and a supporting portion 22b extending transversely from one end of the attachment portion 22a, in a distanced position with respect to the support ring 23.
  • the support ring 23 engages the centring mandrel 12 slidably along a direction parallel to the central geometric axis "Y".
  • the circumferential support 21 may be provided with one or more runners 24, for example borne by a radial structure 25 integral with the support ring 23. Runners 24 are operatively engaged along respective guide rods 26 protruding inferiorly from the support plate 15 of the centring mandrel 12.
  • the availability of a plurality of calibrated inserts 27 may be provided, having different dimensions and selectively usable as a function of the axial dimension of the green tyre 2 being processed.
  • sheets 22 are spaced apart from the central geometric axis "Y" by a greater extent than a maximum radius of the profiling member 17 with respect to the central geometric axis "Y" itself, at least in the radially contracted condition. It is therefore possible to prevent mechanical interference between sheets 22 and the profiling member 17, during a mutual axial handling thereof.
  • the profiling member 17 is adapted to be activated, for example by introducing operating fluid in the expandable membrane 18, when the green tyre 2, previously fitted around the profiling member 17, is supported by the circumferential supporting surface 21a.
  • the activation control of the profiling member 17 takes place by a control unit "C" (not shown), upon receipt of an enabling signal emitted by sensor members 29 designed to detect the presence of tyre 2 around the profiling member 17 itself.
  • sensor members 29 may for example comprise an optical detector oriented towards the profiling member 17. The optical detector is configured to emit a presence signal when tyre 2 is interposed between the profiling member 17 and the optical detector itself.
  • the expandable membrane 18 or other profiling member 17 is consequently expanded from a radially contracted condition ( figure 7 ) to a radially expanded condition ( figure 10 ).
  • the profiling member 17 has a maximum diameter smaller than the seating diameter "Dc", so as to have at least one portion distant from the radially inner surface 2a of the built tyre 2.
  • the profiling member preferably has, at least in the vicinity of the axial centreline plane "M", a maximum diameter greater than the seating diameter, so as to operate against the radially inner surface 2a of tyre 2, exerting a thrust action in a substantially radial direction from the inside towards the outside (centrifugal) to expand the green tyre from the interior up to reaching an expanded configuration.
  • the green tyre 2 is therefore subjected to a restoration of the development so as to take again a circular configuration around the geometric axis of rotation "X".
  • tyre 2 is centred with the geometric axis of rotation "X" thereof coincident with the central geometric axis "Y" of the centring mandrel 17 and of the profiling member 17.
  • the initial contact between the expandable membrane 18 and the built tyre 2 preferably takes place in the vicinity of the axial centreline plane "M" of tyre 2 itself.
  • the profiling of tyre 2 itself is not carried out by a single expansion action, but by two or more expansion actions cyclically repeated and alternating with respective contraction actions. It may further be provided that such cyclically repeated expansion actions follow one another respectively with progressively increasing intensity.
  • a first expansion action may be carried out by imposing a relatively small expansion to the profiling member 17 with respect to that imposed during a subsequent expansion action.
  • the first expansion action is carried out by feeding operating fluid in the expandable membrane 18 at a first pressure value, suitable for determining a sufficient circumferential stretching of tyre 2.
  • the tyre may thus be stretched according to a circular configuration coaxially to the central geometric axis "Y".
  • the first expansion action may be carried out by feeding the operating fluid at a pressure of between about 10 KPa and about 150 KPa, for a time indicatively of between about 1s and about 25s.
  • the profiling member 17 is preferably brought to a semi-expanded condition, intermediate between the contracted condition and the expanded condition ( figure 8 ).
  • the operating fluid is then discharged from the expandable membrane 18 to determine a first contraction, so as to obtain the detachment, preferably complete, from the inner surface of tyre 2.
  • operating fluid is again introduced in the expandable membrane 18 at a higher pressure than the first value, so as to determine a second expansion action and subsequent profiling of tyre 2.
  • the second expansion action may be carried out by feeding the operating fluid at a pressure of between about 10 KPa and about 150 KPa, for a time indicatively of between about 1s and about 25s.
  • the profiling member 17 can be brought to the expanded condition.
  • the action of the expandable membrane 18 during the second expansion action may be more uniform, so as to facilitate the profiling of tyre 2 without causing distortions due to localised stresses.
  • more than two expansion action interspersed with respective contraction actions may be provided.
  • the profiling unit 11 allows receiving and arranging a green tyre 2 for bicycle profiled according to a circular development around a geometric axis of rotation "X" thereof and according to a cross-sectional convex profile in a radially outer direction.
  • the geometric axis of rotation "X” is therefore arranged in a predefined position with respect to the profiling unit 11.
  • the profiling unit 11 is configured for receiving the green tyre for bicycle with the geometric axis of rotation "X" arranged transversely with respect to a horizontal geometric plane "O", even more preferably vertically.
  • the green tyre 2 is adapted to be engaged by a gripping device 30 borne by a transfer member 31.
  • the transfer element 31 provides to remove the green tyre from the profiling unit 11 and is configured for handling the gripping device 30 towards at least a subsequent working station, such as a vulcanisation press 101, while the gripping device 30 continues to retain the green tyre.
  • the transfer member 31 for example comprising a robotic arm, preferably of the anthropomorphic type with at least six axes, or other handling unit, is configured to engage the green tyre 2 by the gripping device 30, while tyre 2 itself is mechanically retained so as to maintain said cross-sectional convex profile in a radially outer direction.
  • the gripping device 30 defines a gripping sector 32 distributed around a gripping axis "Z" and comprising at least one gripping area 33 which can be activated on the green tyre.
  • the gripping axis "Z” coincides with the geometric axis of rotation "X", therefore, in this situation, reference will be made without distinction to the one or the other in the continuation of the present description.
  • the gripping sector 32 comprises a plurality of gripping areas 33 distributed discretely around the gripping axis.
  • each gripping area 33 is defined by a substantially circular area.
  • the gripping areas are circumferentially distributed around the gripping axis "Z" along a same gripping circumference 34.
  • the gripping sector 32 may comprise a single gripping area distributed circumferentially around the gripping axis.
  • the gripping area 33 is activated against a radially outer surface of the green tyre 2 so as to retain it.
  • the activation of the gripping area 33 generates an attraction action "A" acting on the radially outer surface of the green tyre moving away from the geometric axis of rotation "X".
  • the activation thereof generates a plurality of attraction actions "A” distributed around the geometric axis of rotation "X”.
  • Such attraction action(s) is/are exerted by means of a pneumatic suction action adapted to generate a predetermined degree of vacuum between the radially outer surface of the green tyre and the respective gripping area.
  • the gripping sector 32 is arranged circumferentially around the gripping axis "Z" and defines an annular gripping portion.
  • the gripping sector 32 corresponds to the region of the gripping device 30 intended to interact with the green tyre and formed by a sequence of gripping areas 33.
  • the gripping device 30 is configured for retaining the green tyre hanging with the geometric axis of rotation "X" thereof and the gripping axis "Z” arranged transversely with respect to a horizontal geometric plane "O", preferably vertical.
  • the gripping device 30 preferably comprises gripping elements 35 distributed around the gripping axis "Z" and defining each a gripping area 33 of tyre 2.
  • the gripping elements 35 are circumferentially distributed so that the gripping areas 33 define the annular gripping portion.
  • An adjustment apparatus 36 is configured for arranging each gripping area 33 in predetermined radial positions with respect to the gripping axis "Z” and thus with respect to the geometric axis of rotation "X" of the green tyre.
  • the adjustment apparatus comprises at least one driving actuator 37.
  • the gripping elements 35 and thus the gripping areas 33 are radially movable with respect to the gripping axis "Z", between a rest condition, in which they are radially spaced apart with respect to the gripping axis "Z” ( figure 9 ), and a working condition in which they are radially approached with respect to the gripping axis "Z” ( figures 10 and 11 ).
  • the driving actuator 37 is configured for adjusting the radial position of the gripping elements 35 up to reaching a rest configuration corresponding to a radial adjustment position arranged with respect to the geometric axis of rotation "X" of the green tyre at an adjustment distance larger than the radius of the radially outer surface of the green tyre to be retained.
  • the driving actuator 37 is configured for adjusting the radial position of the gripping elements 35 up to reaching a working configuration corresponding to a radial gripping position arranged with respect to the geometric axis of rotation "X" of the green tyre at a gripping distance smaller than the adjustment distance.
  • the driving actuator 37 is configured for adjusting the annular gripping portion to an adjustment diameter larger than the outer diameter of an annular gripping band of the green tyre, corresponding to the rest configuration, and subsequently to a gripping diameter, smaller than the adjustment diameter, corresponding to the working configuration.
  • a single driving actuator 37 operates simultaneously on multiple gripping elements 35, preferably all, for example through a handling mechanism 38 configured to radially move them in a simultaneous and synchronised manner.
  • Each gripping element 35 may for example comprise a support 39, such as plate-shaped and extending parallel to the gripping axis "Z" and having an upper end constrained to the handling mechanism 38 and a lower end defining the gripping area 33.
  • the handling mechanism 38 comprises a cam disc 40 handled in rotation around the gripping axis "Z" by the driving actuator 37 and a plurality of rollers 41, each associated with a support 39.
  • Supports 39 are radially movable along a spoke 42 of a radial element 43.
  • An elastic return device 44 is interposed between each support 39 and the radial element 43.
  • a plurality of actuators is configured for autonomously adjusting the radial position of each gripping element 35 or groups of gripping elements.
  • the gripping elements 35 may be arranged in groups and each group is associated with a driving actuator configured for adjusting the radial position thereof in a simultaneous and synchronised manner or autonomously.
  • each gripping element 35 is configured for exerting a pneumatic suction action adapted to generate a predetermined degree of vacuum between the radially outer surface 2b of the green tyre and the gripping areas 33.
  • each gripping element 35 comprises a suction or spongy interface 45 adapted to come into contact with the radially outer surface of the green tyre 2.
  • interface 45 is connected to a suction device by means of a suction conduit.
  • interface 45 defines a gripping area 33.
  • a detection device 46 is provided for detecting the degree of vacuum applied by the gripping elements between the radially outer surface of the green tyre 2 and the gripping areas 33 and for generating a detection signal indicative of the vacuum degree detected.
  • the control unit "C" is programmed for receiving the detection signal, comparing it with a threshold value indicative of the actual gripping of the green tyre 2 and activating the transfer member 31 if the above comparison confirms the actual gripping of the green tyre.
  • a centring group 47 is configured for aligning the gripping axis "Z” with the geometric axis of rotation "X" of the green tyre arranged in the profiling unit 11 and thus with the central geometric axis "Y" of the profiling member 17.
  • the centring unit 47 comprises a first centring portion associated with the gripping device 30 and a second centring portion associated with the profiling unit 11.
  • the first and second centring portion define a shape coupling configured for aligning the gripping axis "Z" with the geometric axis of rotation "X" of the green tyre arranged in the profiling unit 11, i.e. with the central geometric axis "Y" of the profiling member 17.
  • the first portion associated with the gripping device 30 is implemented by a tailstock 48 tubular in shape, having an upper end of with truncated-cone shape.
  • the second centring portion associated with the profiling unit 11 is implemented by said coupling shank 16.
  • the gripping device 30 comprises a frame 49, for example comprising the radial element 43, supporting the gripping sector 32.
  • Frame 49 is movable along the gripping axis "Z" with respect to the first centring portion.
  • at least one elastic element 50 is interposed between 49 frame and the first centring portion.
  • the elastic element 50 is configured and arranged so as to oppose the approach between frame 49 and the first centring portion and allow the elastic return to a predetermined relative position of frame 49 and of the first centring portion.
  • the profiling unit 11 arranges the profiled green tyre as described above and provides it to the gripping device 30 to be loaded into the vulcanisation mould 101.
  • the gripping axis "Z" of the gripping device 30 not associated with a green tyre is aligned with the geometric axis of rotation "X" of the green tyre arranged in the profiling unit 11 and thus with the central geometric axis "Y" of the centring mandrel 12.
  • This alignment is designed to coaxially position the gripping device 30 around the green tyre.
  • the transfer member 31 places the gripping device 30 with the gripping elements 35 arranged in the rest configuration coaxially above the profiling unit 11.
  • An axial translation, for example descent, of the gripping device 30 is then determined along the gripping axis "Z", to obtain the mutual engagement between the coupling shank 16 and tailstock 48 counter-shaped thereto, coaxially borne by the gripping device 30.
  • the engagement of tailstock 48 with the coupling shank 16 defines a shape coupling configured to determine a precise alignment of the gripping device 30 with the gripping axis "Z” thereof coaxially aligned with respect to the central geometric axis "Y” of the profiling member 17 and thus, with respect to the geometric axis of rotation "X" of the green tyre 2.
  • the relative movement between frame 49 and tailstock 48 determines the correct relative positioning along the geometric axis of rotation "X" corresponding to the axial gripping position.
  • the gripping areas 33 are placed at the axial centreline plane "M" of tyre 2 arranged in the profiling unit 11.
  • the lowering towards the axial gripping position is carried out by maintaining the gripping elements 35 in the rest condition, thus reducing the risk of sliding and/or interference against the green tyre 2.
  • the above driving actuator 37 can be activated, which causes the translation of the gripping elements 35 towards the working configuration, approaching the tread band 6 of tyre 2.
  • the lowering of the gripping device 30 towards the axial gripping position is carried out after the beginning of the profiling operation of tyre 2, but before such a profiling operation has been completed. More in particular, such a lowering takes place for example when the profiling member 17 has been returned to the contracted condition after carrying out at least one expansion action.
  • the gripping elements 35 may be still slightly distanced with respect to tyre 2.
  • a last expansion action imposed to the profiling member 17 brings the tread band 6 against the gripping elements 32, thus expanding the green tyre from the interior up to reaching the expanded configuration.
  • the radial contraction of the gripping elements 35 takes place when the profiling member 17 and thus the green tyre has already reached the expanded condition following the last expansion action.
  • the gripping elements 35 upon reaching the working configuration, come into contact with tyre 2, against the outer surface of the tread band 6 while the profiling member 17 and thus the green tyre is preferably in the expanded condition.
  • the profiling unit 11 it is provided to exert a thrust action on a radially inner surface of the green tyre directed radially outwards for expanding the green tyre from the interior up to reaching the expanded configuration ( figure 10 ).
  • the pneumatic suction effect produced by interface 45 makes the gripping elements 35 be operatively activated against a radially outer surface of the tread band 6, exerting attraction actions "A" directed in radial distancing of the geometric axis of rotation "X" of tyre 2, and distributed along the whole circumferential development of the latter ( figure 10 ).
  • the profiling member 17 can be returned to the radially contracted condition, so that tyre 2 can be axially removed from the profiling unit 11 by the effect of the lifting of the gripping device 30.
  • the thrust action which brings the green tyre to the expanded configuration is cancelled before handling the gripping device 30 ( figure 11 ).
  • Tyre 2 is therefore adapted to retain a stable geometrical shape for the correct loading in the vulcanisation mould 101. In particular, retaining the profiling condition favours the correct engagement of tyre 2 with the members designed to the treatment thereof in the vulcanisation press.
  • the gripping sector 32 is arranged circumferentially around the gripping axis "Z" and defines an annular gripping portion, in order to pick up the green tyre from the profiling unit 11 it may be advantageously provided to select an annular gripping band "B" of the green tyre arranged around the geometric axis of rotation "X" at a predetermined height along the geometric axis of rotation itself.
  • the annular gripping portion in order to adjust the gripping device 30, it may be provided to adjust the annular gripping portion to the adjustment diameter and subsequently bring the annular gripping portion in a radially outer position with respect to the annular gripping band "B".
  • the annular gripping portion is arranged at the height of the annular gripping band "B", i.e. in the axial gripping position, for example by means of a relative axial translation movement between the annular gripping portion and the annular gripping band "B" to arrange them at the same height along the geometric axis of rotation "X" of the green tyre ( figure 9 ).
  • the annular gripping band "B” and the relative height are selected as a function of the tyre width.
  • the annular gripping band “B” is an annular axial centreline band of the tyre and belongs to the tread band of the tyre.
  • the annular gripping band "B” Once the height of the annular gripping band "B" has been reached, it is provided to adjust the annular gripping portion to the gripping diameter.
  • the gripping diameter coincides with the outer diameter of the annular gripping band “B” optionally in the expanded configuration, so as to activate the annular gripping portion against the annular gripping band "B".
  • the adjustment of the annular gripping portion may be carried out by adjusting simultaneously and synchronously the radial position of all gripping areas or autonomously adjusting the radial position of each gripping area.
  • the gripping area is thus activated against the radially outer surface 2b of the annular gripping band "B".
  • the annular gripping portion is placed in contact with the annular gripping band "B" to activate the gripping area against the radially outer surface 2b of the green tyre 2, and in particular to activate the pneumatic suction action.
  • the pneumatic suction effect produced through the annular gripping portion exerts the above attraction actions "A" directed radially away of the geometric axis of rotation "X" of tyre 2, and distributed along the whole circumferential development of the latter.
  • the green tyre 2 is retained by the gripping device 30 hanging only at the annular gripping band "B".
  • the gripping device 30 which carries a second green tyre 2 is centred with respect to the vulcanisation mould 101, by aligning the gripping axis "Z” and consequently the geometric axis of rotation "X” with a reference axis "K” of the vulcanisation mould 101 ( figure 16 ).
  • the vulcanisation mould 101 comprises two half-moulds, of which figures 16-18 show a lower half-mould 102, and a central body 103 preferably movable with respect to the lower half-mould 102.
  • the upper half-mould is not shown.
  • the reference axis "K" of the vulcanisation mould 101 corresponds to the reference axis of the central body 103 along which the central body itself is movable in translation.
  • the central body 103 is configured for exerting a thrust action directed radially towards the exterior on a radially inner surface 2a of the green tyre 2 so as to keep the green tyre 2 in position on the central body 103 by means of said thrust action.
  • the transfer member 31 and the central body 103 are configured for arranging the green tyre 2 held by the gripping device 30 in a radially outer position with respect to the central body 103. Moreover, the transfer member 31 and the central body 103 are configured for axially positioning with respect to the central body 103 the green tyre 2 held by the gripping device 30 so that an axial centreline plane "M" of the green tyre is arranged at a predetermined height along the reference axis "K" of the central body 103, at the axial reference 51.
  • the centring group 47a is configured for centring the green tyre 2 held by the gripping device 30 with the central body 103 by aligning the geometric axis of rotation "X" of the green tyre held by the gripping device 30 and consequently the reference axis "K" of the central body 103.
  • the centring group 47a is substantially similar to the centring group 47 described above.
  • the two groups in fact share the first centring portion associated with the gripping device 30, for example implemented by a tailstock 48.
  • the centring unit 47a comprises the first centring portion associated with the gripping device 30 and a second centring portion associated with the central body 103.
  • the first and second centring portion define a shape coupling configured for aligning the gripping axis "Z” and the geometric axis of rotation "X" of the green tyre 2 held by the gripping device 30 with the reference axis "K" of the central body 103.
  • the second centring portion associated to the central body 103 is implemented by a coupling shank 16a is similar to the above coupling shank 16 of the profiling unit 11.
  • the movement of the gripping device 30 from the profiling unit 11 provides to load the green tyre 2 into the vulcanisation mould 101 for example by releasing the green tyre 2 on the central body 103.
  • the gripping device 30 and the central body 103 are movable according to a relative axial translation movement for arranging the axial centreline plane "M" at the predetermined height along the reference axis "K" of the central body 103, i.e. at the axial reference 51.
  • the central body 103 is movable between a vulcanisation position, in which the central body itself is arranged within the vulcanisation mould 101 and in particular in the lower half-mould 102 ( figure 18 ), and a gripping position, in which the central body 103 is arranged outside the vulcanisation mould and in particular outside the lower half-mould 102, and positioned radially inside the green tyre 2 ( figure 17 ).
  • the vulcanisation position is arranged at a smaller height than the gripping position, for example as shown in figures 16-18 .
  • the central body 103 comprises a support structure 104 arranged around a central shaft 105 to which a central disc element 106 is centrally fixed, preferably circular in shape, having a peripheral border which extends concentrically to the reference axis "K".
  • the coupling shank 16a tubular in shape, having a truncated-cone upper end, is preferably fixed on an upper surface of the disc support element 106, concentrically to the reference axis "K".
  • the disc support element 106 is operatively coupled to a radially expandable portion 107, extending circumferentially around the reference axis "K" and preferably arranged along the perimeter with respect to the disc support element 106.
  • the central body 103 comprises at least one portion 107 configured for expanding up to touching a radially inner surface of the green tyre.
  • portion 107 is an expandable vulcanisation chamber, for example implemented by an expandable bladder extending around the reference axis "K".
  • the axial reference 51 is arranged at an axial centreline plane of the expandable vulcanisation chamber.
  • the expandable bladder is preferably fixed around the disc support element 106 which has at least one channel 108 for the controlled introduction of air or other operating fluid under pressure so that the above bladder can expand radially away with respect to the reference axis "K".
  • the disc support element 106 may optionally comprise, in addition to or in replacement of the expandable collar, a plurality of sectors radially movable with respect to the reference axis "K".
  • the central body 103 with retracted portion 107 is handled, in particular raised, from the vulcanisation position to the gripping position.
  • the gripping axis "Z" of the gripping device 30 and the geometric axis of rotation "X" of the green tyre associated thereto are aligned with the reference axis "K" of the central body 103.
  • Such an alignment is carried out by the mutual engagement between the coupling shank 16a and tailstock 48.
  • the relative movement between frame 49 and tailstock 48 determines the correct relative positioning along the geometric axis of rotation "X" corresponding to the gripping position.
  • the central body 103 When the central body 103 reaches the gripping position and the axial centreline plane M arranged at the predetermined height, the central body exerts the above thrust action on the radially inner surface 2a of the green tyre 2 by the effect of the introduction of air or other operating fluid under pressure into portion 107. Portion 107 reaches the maximum radial expansion against the radially inner surface 2a of the green tyre 2.
  • the width of portion 107 i.e. he axial dimension thereof, in radial expansion configuration is smaller than the width of the green tyre 2 which, following the radial expansion of portion 107 and then following the interaction with the two half-moulds of the vulcanisation mould, embraces portion 107, thus taking the radial section that will be made definitive by the vulcanisation.
  • the gripping device 30 is disengaged from the green tyre 2 by deactivating the gripping area(s) and releasing the radially outer surface.
  • the green tyre 2 is kept in position hanging on the central body 103 arranged in gripping position, retained from the interior by means of the thrust action exerted by the central body 103.
  • the central body 103 is handled, in particular lowered, from the gripping position to the vulcanisation position for vulcanising the green tyre 2.
  • the green tyre 2 is retained from the interior only by means of the thrust action exerted by the central body 103 without bottom support.
  • the transfer member 31 After releasing the green tyre 2 to the vulcanisation mould 101, the transfer member 31 repositions the gripping device 30 at the profiling unit 11 on which another tyre to be handled is made available.
  • apparatus 1 is configured for maintaining the central geometric axis "X" of the green tyre 2 arranged transversely with respect to a horizontal geometric plane, preferably vertically.
  • apparatus 1 in use, allows implementing a method for loading a green tyre for bicycle in a vulcanisation mould according to the present invention, in which the gripping device 30 picks the green tyre 2 keeping it hanging, preferably only at the annular gripping band "B".
  • the axial centreline plane "M" of the green tyre 2 symmetrically divides the annular gripping band "B" with respect thereto.
  • the gripping device 30 that holds the green tyre 2 is handled up to aligning the gripping axis "Z” and thus the geometric axis of rotation "X" of the green tyre 2 with the reference axis "K” of the central body 103.
  • the green tyre 2 is then arranged in a radially outer position with respect to the central body 103 and axially positioned so that the axial centreline plane "M" of the green tyre 2 is arranged at the axial reference 51.
  • the green tyre 2 is axially arranged with respect to the central body 103 by carrying out a relative axial translation movement between the gripping device 30 and the central body 103.
  • the green tyre 2 is arranged and positioned with respect to the central body 103 arranged with the reference axis "K" arranged transversely with respect to a horizontal geometric plane, preferably vertically.
  • the central body 103 exerts the above thrust action directed radially towards the exterior on the radially inner surface 2a of the green tyre 2 so as to keep the green tyre 2 on the central body 103 by means of, and preferably only, such a thrust action.
  • the gripping device 30 is disengaged from the green tyre 2 for releasing the green tyre itself on the central body 103 with the axial centreline plane "M" centred and positioned in an axial position corresponding to the predetermined height.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Heating, Cooling, Or Curing Plastics Or The Like In General (AREA)
  • Moulds For Moulding Plastics Or The Like (AREA)
EP17835704.2A 2016-12-28 2017-11-29 Method for loading a green tyre for bicycles in a vulcanisation mould and apparatus for moulding and vulcanising Active EP3562660B1 (en)

Applications Claiming Priority (2)

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IT201600131421 2016-12-28
PCT/IB2017/057482 WO2018122644A1 (en) 2016-12-28 2017-11-29 Method for loading a green tyre for bicycle in a vulcanisation mould and apparatus for moulding and vulcanising

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EP3562660A1 EP3562660A1 (en) 2019-11-06
EP3562660B1 true EP3562660B1 (en) 2021-01-06

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CN112478570A (zh) * 2020-12-08 2021-03-12 赛轮集团股份有限公司 用于恢复胎胚形状的存胎器
CN116080118A (zh) * 2023-01-08 2023-05-09 青岛安凯动力有限公司 一种动力钢珠模组

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CN110114207A (zh) 2019-08-09
WO2018122644A1 (en) 2018-07-05
EP3562660A1 (en) 2019-11-06
US10987887B2 (en) 2021-04-27
US12005660B2 (en) 2024-06-11
US20210268757A1 (en) 2021-09-02
US20190366661A1 (en) 2019-12-05
CN110114207B (zh) 2022-04-01

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